# This file is part of the Printrun suite.
# 
# Printrun is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# 
# Printrun is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
# 
# You should have received a copy of the GNU General Public License
# along with Printrun.  If not, see <http://www.gnu.org/licenses/>.
import wx,time

class window(wx.Frame):
    def __init__(self,f,size=(600,600),build_dimensions=[200,200,100,0,0,0],grid=(10,50),extrusion_width=0.5):
        wx.Frame.__init__(self,None,title="Gcode view, shift to move view, mousewheel to set layer",size=(size[0],size[1]))
        self.p=gviz(self,size=size,build_dimensions=build_dimensions,grid=grid,extrusion_width=extrusion_width)
        
        # Set up a status bar for displaying info  (Jezmy)
        self.CreateStatusBar(1);
        self.SetStatusText("Layer number and Z position show here when you scroll");
        
        s=time.time()
        #print time.time()-s
        self.initpos=[0,0]
        self.p.Bind(wx.EVT_KEY_DOWN,self.key)
        self.Bind(wx.EVT_KEY_DOWN,self.key)
        self.p.Bind(wx.EVT_MOUSEWHEEL,self.zoom)
        self.Bind(wx.EVT_MOUSEWHEEL,self.zoom)
        self.p.Bind(wx.EVT_MOUSE_EVENTS,self.mouse)
        self.Bind(wx.EVT_MOUSE_EVENTS,self.mouse)
    
    def mouse(self,event):
        if event.ButtonUp(wx.MOUSE_BTN_LEFT):
            if(self.initpos is not None):
                self.initpos=None
        elif event.Dragging():
            e=event.GetPositionTuple()
            if self.initpos is None or not hasattr(self,"basetrans"):
                self.initpos=e
                self.basetrans=self.p.translate
            #print self.p.translate,e,self.initpos
            self.p.translate = [ self.basetrans[0]+(e[0]-self.initpos[0]),
                            self.basetrans[1]+(e[1]-self.initpos[1]) ]
            self.p.repaint()
            self.p.Refresh()
        
        else:
            event.Skip()
    

    def key(self, event):
        x=event.GetKeyCode()
        if event.ShiftDown():
            cx,cy=self.p.translate
            if x==wx.WXK_UP:
                self.p.zoom(cx,cy,1.2)
            if x==wx.WXK_DOWN:
                self.p.zoom(cx,cy,1/1.2)
        else:
            if x==wx.WXK_UP:
                self.p.layerup()
            if x==wx.WXK_DOWN:  
                self.p.layerdown()
        #print x
    
        #print p.lines.keys()
    def zoom(self, event):
        z=event.GetWheelRotation()
        if event.ShiftDown():
            if z > 0:   self.p.layerdown()
            elif z < 0: self.p.layerup()
        else:
            if z > 0:   self.p.zoom(event.GetX(),event.GetY(),1.2)
            elif z < 0: self.p.zoom(event.GetX(),event.GetY(),1/1.2)
        
class gviz(wx.Panel):
    def __init__(self,parent,size=(200,200),build_dimensions=[200,200,100,0,0,0],grid=(10,50),extrusion_width=0.5):
        wx.Panel.__init__(self,parent,-1,size=(size[0],size[1]))
        self.parent=parent
        self.size=size
        self.build_dimensions=build_dimensions
        self.grid=grid
        self.lastpos=[0,0,0,0,0,0,0]
        self.hilightpos=self.lastpos[:]
        self.Bind(wx.EVT_PAINT,self.paint)
        self.Bind(wx.EVT_SIZE,self.resize)
        self.lines={}
        self.pens={}
        self.arcs={}
        self.arcpens={}
        self.layers=[]
        self.layerindex=0
        self.filament_width=extrusion_width # set it to 0 to disable scaling lines with zoom
        self.basescale=[min(float(size[0])/build_dimensions[0],float(size[1])/build_dimensions[1])]*2
        self.scale=self.basescale
        penwidth = max(1.0,self.filament_width*((self.scale[0]+self.scale[1])/2.0))
        self.translate=[0.0,0.0]
        self.mainpen=wx.Pen(wx.Colour(0,0,0),penwidth)
        self.arcpen=wx.Pen(wx.Colour(255,0,0),penwidth)
        self.travelpen=wx.Pen(wx.Colour(10,80,80),penwidth)
        self.hlpen=wx.Pen(wx.Colour(200,50,50),penwidth)
        self.fades=[wx.Pen(wx.Colour(250-0.6**i*100,250-0.6**i*100,200-0.4**i*50),penwidth) for i in xrange(6)]
        self.penslist=[self.mainpen,self.travelpen,self.hlpen]+self.fades
        self.showall=0
        self.hilight=[]
        self.hilightarcs=[]
        self.dirty=1
        self.blitmap=wx.EmptyBitmap(self.GetClientSize()[0],self.GetClientSize()[1],-1)
        
    def clear(self):
        self.lastpos=[0,0,0,0,0,0,0]
        self.lines={}
        self.pens={}
        self.arcs={}
        self.arcpens={}
        self.layers=[]
        self.hilight=[]
        self.hilightarcs=[]
        self.layerindex=0
        self.showall=0
        self.dirty=1
        #self.repaint()        
    def layerup(self):
        if(self.layerindex+1<len(self.layers)):
            self.layerindex+=1
            # Display layer info on statusbar (Jezmy)
            self.parent.SetStatusText("Layer "+str(self.layerindex +1)+" - Going Up - Z = "+str(self.layers[self.layerindex])+" mm",0)
            self.repaint()
            self.Refresh()
    
    def layerdown(self):
        if(self.layerindex>0):
            self.layerindex-=1            
            # Display layer info on statusbar (Jezmy)
            self.parent.SetStatusText("Layer "+str(self.layerindex + 1)+" - Going Down - Z = "+str(self.layers[self.layerindex])+ " mm",0)
            self.repaint()
            self.Refresh()
    
    def setlayer(self,layer):
        try:
            self.layerindex=self.layers.index(layer)
            self.repaint()
            wx.CallAfter(self.Refresh)
            self.showall=0
        except:
            pass
    
    def resize(self,event):
        size=self.GetClientSize()
        newsize=min(float(size[0])/self.size[0],float(size[1])/self.size[1])
        self.size=self.GetClientSize()
        wx.CallAfter(self.zoom,0,0,newsize)
        

    def zoom(self,x,y,factor):
        self.scale = [s * factor for s in self.scale]
        
        self.translate = [ x - (x-self.translate[0]) * factor,
                            y - (y-self.translate[1]) * factor]
        penwidth = max(1.0,self.filament_width*((self.scale[0]+self.scale[1])/2.0))
        for pen in self.penslist:
            pen.SetWidth(penwidth)
        #self.dirty=1
        self.repaint()
        self.Refresh()
        
        
    def repaint(self):
        self.blitmap=wx.EmptyBitmap(self.GetClientSize()[0],self.GetClientSize()[1],-1)
        dc=wx.MemoryDC()
        dc.SelectObject(self.blitmap)
        dc.SetBackground(wx.Brush((250,250,200)))
        dc.Clear()
        dc.SetPen(wx.Pen(wx.Colour(180,180,150)))
        for grid_unit in self.grid:
            if grid_unit > 0:
                for x in xrange(int(self.build_dimensions[0]/grid_unit)+1):
                    dc.DrawLine(self.translate[0]+x*self.scale[0]*grid_unit,self.translate[1],self.translate[0]+x*self.scale[0]*grid_unit,self.translate[1]+self.scale[1]*self.build_dimensions[1])
                for y in xrange(int(self.build_dimensions[1]/grid_unit)+1):
                    dc.DrawLine(self.translate[0],self.translate[1]+y*self.scale[1]*grid_unit,self.translate[0]+self.scale[0]*self.build_dimensions[0],self.translate[1]+y*self.scale[1]*grid_unit)
            dc.SetPen(wx.Pen(wx.Colour(0,0,0)))
        if not self.showall:
            self.size = self.GetSize()
            dc.SetBrush(wx.Brush((43,144,255)))
            dc.DrawRectangle(self.size[0]-15,0,15,self.size[1])
            dc.SetBrush(wx.Brush((0,255,0)))
            if len(self.layers):
                dc.DrawRectangle(self.size[0]-14,(1.0-(1.0*(self.layerindex+1))/len(self.layers))*self.size[1],13,self.size[1]-1)
            
        def _drawlines(lines,pens):
            def _scaler(x):
                return (self.scale[0]*x[0]+self.translate[0],
                        self.scale[1]*x[1]+self.translate[1],
                        self.scale[0]*x[2]+self.translate[0],
                        self.scale[1]*x[3]+self.translate[1],)
            scaled_lines = map(_scaler,lines)
            dc.DrawLineList(scaled_lines, pens)
        
        def _drawarcs(arcs,pens):
            def _scaler(x):
                return (self.scale[0]*x[0]+self.translate[0],
                        self.scale[1]*x[1]+self.translate[1],
                        self.scale[0]*x[2]+self.translate[0],
                        self.scale[1]*x[3]+self.translate[1],
                        self.scale[0]*x[4]+self.translate[0],
                        self.scale[1]*x[5]+self.translate[1],)
            scaled_arcs = map(_scaler,arcs)
            for i in range(len(scaled_arcs)):
                dc.SetPen(pens[i] if type(pens).__name__ == 'list' else pens)
                dc.SetBrush(wx.TRANSPARENT_BRUSH)
                dc.DrawArc(*scaled_arcs[i])
        
        if self.showall:
            l=[]
            for i in self.layers:
                dc.DrawLineList(l,self.fades[0])
                _drawlines(self.lines[i], self.pens[i])
                _drawarcs(self.arcs[i], self.arcpens[i])
            return
        if self.layerindex<len(self.layers) and self.layers[self.layerindex] in self.lines.keys():
            for layer_i in xrange(max(0,self.layerindex-6),self.layerindex):
                #print i, self.layerindex, self.layerindex-i
                _drawlines(self.lines[self.layers[layer_i]], self.fades[self.layerindex-layer_i-1])
                _drawarcs(self.arcs[self.layers[layer_i]], self.fades[self.layerindex-layer_i-1])
            _drawlines(self.lines[self.layers[self.layerindex]], self.pens[self.layers[self.layerindex]])
            _drawarcs(self.arcs[self.layers[self.layerindex]], self.arcpens[self.layers[self.layerindex]])
        
        _drawlines(self.hilight, self.hlpen)
        _drawarcs(self.hilightarcs, self.hlpen)
        
        dc.SelectObject(wx.NullBitmap)
    
    def paint(self,event):
        dc=wx.PaintDC(self)
        if(self.dirty):
            self.repaint()
        self.dirty=0
        sz=self.GetClientSize()
        dc.DrawBitmap(self.blitmap,0,0)
        del dc
        
    def addfile(self,gcodes=[]):
        self.clear()
        for i in gcodes:
            self.addgcode(i)
        
    def addgcode(self,gcode="M105",hilight=0):
        gcode=gcode.split("*")[0]
        gcode=gcode.split(";")[0]
        gcode = gcode.lower().strip().split()
        if len(gcode) == 0:
            return
        if gcode[0][0] == 'n':
            gcode.pop(0)
        
        def _readgcode():
            target=self.lastpos[:]
            if hilight:
                target=self.hilightpos[:]
            for i in gcode:
                if i[0]=="x":
                    target[0]=float(i[1:])
                elif i[0]=="y":
                    target[1]=float(i[1:])
                elif i[0]=="z":
                    target[2]=float(i[1:])
                elif i[0]=="e":
                    target[3]=float(i[1:])
                elif i[0]=="f":
                    target[4]=float(i[1:])
                elif i[0]=="i":
                    target[5]=float(i[1:])
                elif i[0]=="j":
                    target[6]=float(i[1:])
            if not hilight:
                if not target[2] in self.lines.keys():
                    self.lines[target[2]]=[]
                    self.pens[target[2]]=[]
                    self.arcs[target[2]]=[]
                    self.arcpens[target[2]]=[]
                    self.layers+=[target[2]]
            return target
        
        def _y(y):
            return self.build_dimensions[1]-(y-self.build_dimensions[4])
        def _x(x):
            return x-self.build_dimensions[3]
        
        start_pos = self.hilightpos[:] if hilight else self.lastpos[:]
        
        if gcode[0] in [ "g0", "g1" ]:
            target = _readgcode()
            line = [ _x(start_pos[0]), _y(start_pos[1]), _x(target[0]), _y(target[1]) ]
            if not hilight:
                self.lines[ target[2] ] += [line]
                self.pens[ target[2] ]  += [self.mainpen if target[3] != self.lastpos[3] else self.travelpen]
                self.lastpos = target
            else:
                self.hilight += [line]
                self.hilightpos = target
            self.dirty = 1
        
        if gcode[0] in [ "g2", "g3" ]:
            target = _readgcode()
            arc = []
            arc += [ _x(start_pos[0]), _y(start_pos[1]) ]
            arc += [ _x(target[0]), _y(target[1]) ]
            arc += [ _x(start_pos[0] + target[5]), _y(start_pos[1] + target[6]) ]  # center
            if gcode[0] == "g2":  # clockwise, reverse endpoints
                arc[0], arc[1], arc[2], arc[3] = arc[2], arc[3], arc[0], arc[1]
            
            if not hilight:
                self.arcs[ target[2] ]    += [arc]
                self.arcpens[ target[2] ] += [self.arcpen]
                self.lastpos = target
            else:
                self.hilightarcs += [arc]
                self.hilightpos = target
            self.dirty = 1
            
if __name__ == '__main__':
    app = wx.App(False)
    #main = window(open("/home/kliment/designs/spinner/arm_export.gcode"))
    main = window(open("jam.gcode"))
    main.Show()
    app.MainLoop()

